JP3900405B2 - Pachinko machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pachinko machine including a sensor that detects a pachinko ball and outputs an electrical signal.
[0002]
[Problems to be solved by the invention]
Some of the pachinko machines are configured to acquire game information based on an output signal from a sensor and to control game parts based on the game information. In the case of this configuration, since the driving of the sensor is stopped simultaneously with the occurrence of a power failure, the pachinko ball that has reached the sensor after the power failure cannot be detected, and accurate game information cannot be obtained.
This invention is made | formed in view of the said situation, The objective is to provide the pachinko machine which can acquire game information correctly.
[0003]
[Means for Solving the Problems]
The pachinko machine according to claim 1, A prize opening on the game board where a pachinko ball can enter, Pachinko balls Said A winning sensor for detecting that the player has entered the winning opening and outputting a winning signal; and detecting a winning signal from the winning sensor Based on this, the payout information for paying out the pachinko ball from the payout device into the upper plate is set, and the setting result of the payout information is output. A main control unit; Based on detecting the payout information output from the main control device, the payout device is driven to pay out the pachinko balls from the payout device into the upper plate, and the power supply device of the pachinko hall A power supply board that is supplied with power and generates drive power for each of the main control device and the prize ball control device based on the main power supply, and a voltage level of the drive power generated by the power supply board is set to a reset level. A reset circuit that outputs a reset signal to each of the main control device and the prize ball control device based on rising, and the reset circuit so that the main control device is activated after the prize ball control device is activated A delay circuit for delaying and providing a reset signal output from the main control device; The main control device and the prize ball control device Each of Has an initialization switch that outputs an initialization signal. The main control device has a RAM capable of backing up the payout information setting result when the main power supply is shut off. When the main power supply is turned on in the operation state of the initialization switch, the main control apparatus stores the RAM in its own RAM. The backed-up payout information is cleared, and the prize ball control device has a RAM capable of backing up the payout information detection result when the main power supply is shut off, and the operation state of the initialization switch When the main power is turned on, the main controller is activated prior to the main control device to clear the payout information backed up in its own RAM. However, it has the characteristics.
Claim 1 According to the above-described means, since the main control device and the prize ball control device clear the backup data of the payout information when the main power is turned on in the operation state of the initialization switch, the initialization switch is turned on after the main power is turned on. The backup data of the payout information is not cleared when operated.
[0004]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 9, an outer frame 1 is installed on the island of Pachinko hall. The outer frame 1 has a rectangular tube shape with front and rear surfaces open, and a front door 2 is mounted on the front surface of the outer frame 1 so as to be rotatable about the left side as shown in FIG. ing. In addition, a horizontally long rectangular dish plate 3 is mounted on the front surface of the front door 2 so as to be rotatable around the left side. An upper plate 4 is fixed to the front surface of the plate 3, and pachinko balls P (see FIG. 7) are stored in the upper plate 4.
[0005]
As shown in FIG. 8, a firing handle 5 is rotatably mounted on the front surface of the front door 2 as shown in FIG. 8, and behind the firing handle 5 is fired as shown in FIG. A motor 6 is mounted. A hitting ball (not shown) is connected to the rotation shaft of the firing motor 6 via a crank mechanism, and when the firing handle 5 is rotated in the clockwise direction in FIG. Is supplied with power, and the hitting ball punches the pachinko ball P in the upper plate 4 from the upper plate 4.
[0006]
As shown in FIG. 8, a rectangular frame-like window frame 7 is mounted on the front surface of the front door 2 so as to be rotatable around the left side, and transparent glass is provided on the inner peripheral surface of the window frame 7. A window (not shown) is held. A frame-shaped mechanism board (not shown) is fixed to the rear surface of the front door 2. A game board 8 is held on this mechanism board, and the game board 8 is covered from the front by the glass window of the window frame 7. Further, a frame key 9 is mounted on the front surface of the front door 2 so as to be positioned on the right side. The frame key 9 locks the front door 2 in a closed state in close contact with the outer frame 1, and The window frame 7 is locked in a closed state in close contact with the front door 2.
[0007]
An outer rail 10 and an inner rail 11 are fixed to the front surface of the game board 8, and a pachinko ball P repelled by the hitting ball is released between the outer rail 10 and the inner rail 11 to the upper part in the game board 8. In addition, a plurality of obstacle nails 12 are driven into the front surface of the game board 8, and the pachinko balls P released to the upper part of the game board 8 fall while hitting the plurality of obstacle nails 12.
[0008]
A substantially circular display base plate 13 is fixed to the front surface of the game board 8, and a special symbol display device 14 is held on the display base plate 13. The special symbol display device 14 comprises a color liquid crystal display, and a special symbol start port 15 is fixed to the front surface of the game board 8 below the special symbol display device 14. The special symbol starting port 15 corresponds to a starting port and a winning port, and has a pocket shape whose upper surface is open.
[0009]
A special symbol start sensor 16 (see FIG. 6) corresponding to a start sensor and a winning sensor is fixed in the special symbol start port 15. This special symbol start sensor 16 is composed of a proximity switch, detects that the pachinko ball P has entered the special symbol start port 15 and outputs a special symbol start signal. The special symbol start signal corresponds to a start signal and a winning signal. Hereinafter, the special symbol start signal is referred to as a special symbol start signal.
[0010]
A center cover 17 is fixed to the rear surface of the game board 8 as shown in FIG. A main circuit box 18 is fixed to the rear surface of the center cover 17, and a main circuit board 19 is accommodated in the main circuit box 18. A main control device 20 is mounted on the main circuit board 19, and a special symbol start sensor 16 is electrically connected to an input terminal of the main control device 20 as shown in FIG. The main control device 20 corresponds to monitoring means, determination means, and prize ball means, and includes a start processing unit 21, a determination processing unit 22, and a prize ball processing unit 23 that are mainly composed of a microcomputer. .
[0011]
As shown in FIG. 9, a display circuit board 24 is fixed to the rear surface of the display base plate 13, and the display circuit board 24 is covered from behind by the center cover 17. A display control device 25 is mounted on the display circuit board 24. As shown in FIG. 6, the input / output terminals of the main control device 20 are electrically connected to the input / output terminals of the display control device 25. A special symbol display device 14 is electrically connected to an output terminal of the display control device 25 via a drive circuit 26. The display control device 25 is mainly composed of a microcomputer, and displays numeric symbols in three horizontal rows on the special symbol display device 14 based on driving control of the special symbol display device 14.
[0012]
As shown in FIG. 8, a substantially semi-circular winning hole base plate 27 is fixed to the front surface of the game board 8 below the special symbol starting port 15. A large winning opening 28 is formed. The special winning opening 28 corresponds to a winning opening, and has a rectangular tube shape with an open front.
[0013]
A door 29 is attached to the winning base plate 27 so as to be rotatable about a shaft 30. The door 29 is connected to a plunger of a large winning solenoid 31 (see FIG. 6) via a crank mechanism (not shown). Are connected. The large winning opening solenoid 31 is fixed to the rear surface of the winning opening base plate 27, and when the large winning opening solenoid 31 is disconnected, the door 29 is rotated vertically as shown in FIG. On the basis of this, the special winning opening 28 is closed, and when the special winning opening solenoid 31 is energized, the special winning opening 28 is opened based on the fact that the door 29 is rotated horizontally.
[0014]
As shown in FIG. 6, the big prize opening solenoid 31 is electrically connected to the output terminal of the main control device 20 via the drive circuit 32, and the main control apparatus 20 passes through the drive circuit 32 to the big prize opening solenoid 31. Based on the fact that the excitation power supply is given for a set time (for example, 30 seconds), the special winning opening 28 is opened for the set time. This opening operation is called a round operation, and is repeated a set number of times (for example, 15 rounds) (big hit operation).
[0015]
A big prize opening sensor 33 composed of a proximity switch is electrically connected to an input terminal of the main controller 20. The special winning opening sensor 33 is fixed in the special winning opening 28, detects that the pachinko ball P has entered the special winning opening 28, and outputs a winning signal. The special winning opening sensor 33 corresponds to a winning sensor.
[0016]
As shown in FIG. 9, the main set 34 is mounted on the rear surface of the front door 2 so as to be rotatable around the same side portion as the front door 2. The main set 34 has a rectangular frame shape surrounding the center cover 17. A ball tank 35 is fixed to the rear surface of the main set 34 at the upper end portion, and a pachinko ball P is stored in the ball tank 35. Has been. A tank rail 36 and a dispensing device 37 are fixed to the rear surface of the main set 34. This payout device 37 is connected to the inside of the ball tank 35 via the tank rail 36, and is configured as follows.
[0017]
<About Dispensing Device 37>
As shown in FIG. 7, a payout case 38 is fixed to the main set 34, and a ball passage 39 is formed in the payout case 38. The upper end portion of the ball passage 39 is connected to the tank rail 36, and the ball passage 39 is filled with pachinko balls P in a row from the ball tank 35 through the tank rail 36. A sprocket 40 corresponding to a payout member is rotatably mounted around the shaft 41 at an intermediate portion in the vertical direction of the ball passage 39, and a plurality of concave ball receiving portions 42 are formed on the outer periphery of the sprocket 40. Is formed.
[0018]
In the payout case 38, as shown in FIG. 9, a ball payout motor 43 comprising a pulse motor is disposed. The sprocket 40 of FIG. 7 is connected to the rotation shaft of the ball payout motor 43. When the ball payout motor 43 is stopped, the lowermost pachinko ball P in the ball passage 39 is moved as shown by a solid line in FIG. The sprocket 40 is held in one ball receiving portion 42. When the rotation shaft of the ball payout motor 43 rotates by a unit amount in this state, the sprocket 40 rotates in the direction of arrow A as shown by a two-dot chain line in FIG. A single pachinko ball P is discharged from the inside of the payout case 38 through the lower end of the ball passage 39. The dispensing device 37 is configured as described above.
[0019]
As shown in FIG. 9, a prize ball circuit box 44 is fixed to the rear surface of the main set 34. A prize ball circuit board 45 is accommodated in the prize ball circuit box 44, and a prize ball control device 46 corresponding to a payout means is mounted on the prize ball circuit board 45. As shown in FIG. 6, the prize ball control device 46 has a payout processing unit 47 mainly composed of a microcomputer, and the input / output terminal of the prize ball control device 46 has an output of the main control device 20. The input terminal is electrically connected. A ball payout motor 43 is electrically connected to an output terminal of the prize ball control device 46 via a drive circuit 48, and the payout processing unit 47 of the prize ball control device 46 controls driving of the ball payout motor 43. Based on the above, the pachinko ball P is paid out from the payout device 37.
[0020]
As shown in FIG. 9, a ball passage 49 is provided in the main set 34. The ball passage 49 connects the dispensing device 37 and the upper plate 4, and the pachinko balls P paid out from the dispensing device 37 are supplied into the upper plate 4 through the ball passage 49. Further, as shown in FIG. 8, a lower plate 50 is fixed to the front surface of the front door 2. The lower plate 50 communicates with the upper plate 4, and pachinko balls overflowing from the upper plate 4 spill into the lower plate 50 from the upper plate 4.
[0021]
As shown in FIG. 7, a payout sensor 51 is fixed in the ball passage 39 of the payout device 37 at the downstream side of the sprocket 40, and the payout sensor 51 is connected to the main control as shown in FIG. The input terminal of the device 20 and the input terminal of the prize ball control device 46 are electrically connected. The payout sensor 51 includes a proximity switch, and outputs a payout signal to the main control device 20 and the prize ball control device 46 based on detection of a pachinko ball P to be paid out from the payout device 37 into the upper plate 4. To do.
[0022]
As shown in FIG. 9, a power supply board 52 is fixed to the rear surface of the main set 34 at the upper end portion, and a pair of power supply cords 53 are electrically connected to the power supply board 52. These power cords 53 are electrically connected to a power supply device (not shown) of pachinkoles, and a main power source Vin of 24V AC is supplied to the power supply board 52 through the power cord 53. As shown in FIG. 1, a launch motor 6 is electrically connected to the power supply board 52. When the main power source Vin is valid, the launch handle 5 is operated to rotate. A drive power supply Vout1 of AC24V is applied to the motor 6.
[0023]
A rectifier circuit 54 is mounted on the power supply substrate 52, and the rectifier circuit 54 converts the main power source Vin into a DC power source Vout2 of DC 24V. A boosting smoothing circuit 55 is mounted on the power supply substrate 52. The step-up / smoothing circuit 55 converts a 24V DC power supply Vout2 into a DC32V drive power supply Vout3. When the main power supply Vin is valid, the main controller 20 and the winning ball controller 46 are operated by the big prize opening solenoid 31 and the ball payout motor. The drive power supply Vout3 is applied to 43.
[0024]
A DC / DC circuit 56 is mounted on the power supply substrate 52. The DC / DC circuit 56 converts a DC 24V DC power supply Vout2 into a DC12V drive power supply Vout4. When the main power supply Vin is valid, the DC / DC circuit 56 starts the special symbol display device 14, the special symbol start sensor 16, The drive power supply Vout4 is applied to the winning prize sensor 33 and the payout sensor 51.
[0025]
A reserve power supply circuit 57 is mounted on the power supply substrate 52, and the reserve power supply circuit 57 is electrically connected to the output side of the DC / DC circuit 56 via a diode 58. The standby power supply circuit 57 is mainly composed of a capacitor. When the main power supply Vin is cut off, the drive power supply Vout4 ′ is applied from the standby power supply circuit 57 to the special symbol start sensor 16 and the payout sensor 51 for a set time T. .
[0026]
A DC / DC circuit 59 is mounted on the power supply substrate 52. This DC / DC circuit 59 converts DC 24V DC power supply Vout2 to DC5V drive power supply Vout5. When the main power supply Vin is valid, the DC / DC circuit 59 to the main control device 20 of the main circuit board 19, the display circuit board. 24 display control device 25, prize ball circuit board 45 Prize ball control device 46 The drive power supply Vout5 is applied to the power supply.
[0027]
A standby power supply circuit 60 is mounted on the power supply substrate 52, and the standby power supply circuit 60 is electrically connected to the output side of the DC / DC circuit 59 via a diode 61. The standby power supply circuit 60 is mainly composed of a capacitor. When the main power supply Vin is cut off, the drive power supply Vout5 ′ is applied from the standby power supply circuit 60 to the main controller 20 and the prize ball controller 46 for a set time T. The
[0028]
A backup power supply circuit 62 is mounted on the main circuit board 19. This backup power supply 62 has two diodes 63 and a lithium battery 64. When the drive power supply Vout5 and the drive power supply Vout5 ′ are valid, the drive power supply Vout5 and the drive power supply are supplied to the RAM 65 of the main controller 20 through one diode 63. Vout5 ′ is applied, and when the drive power supply Vout5 and the drive power supply Vout5 ′ are cut off, a DC3V backup power supply Vout6 is applied from the lithium battery 64 to the RAM 65 through the other diode 63.
[0029]
A backup power supply circuit 66 is mounted on the winning ball circuit board 45. This backup power supply 66 has two diodes 67 and a lithium battery 68. When the drive power supply Vout5 and the drive power supply Vout5 ′ are valid, the drive power supply Vout5 and the drive power are supplied to the RAM 69 of the prize ball controller 46 through one diode 67. The power supply Vout5 ′ is applied, and when the drive power supply Vout5 and the drive power supply Vout5 ′ are cut off, the DC3V backup power supply Vout6 is applied from the lithium battery 68 to the RAM 69 through the other diode 67.
[0030]
A power failure detection circuit 70 is mounted on the power supply substrate 52. The power failure detection circuit 70 monitors the voltage level of the main power source Vin, and gives a power failure signal to the main controller 20 and the prize ball controller 46 based on the voltage level of the main power source Vin dropping to the power failure level. .
[0031]
A reset circuit 71 is mounted on the power supply substrate 52. The reset circuit 71 monitors the voltage level of the drive power supply Vout5, and resets the display control device 25, the prize ball control device 46, and the delay circuit 72 based on the voltage level of the drive power supply Vout5 rising to the reset level. Apply signals simultaneously (in parallel). The output terminal of the delay circuit 72 is electrically connected to the input terminal of the main controller 20, and the main controller 20 receives a reset signal from the delay circuit 72 after the display controller 25 and the prize ball controller 46 are activated. The main control device 20 is activated later than the display control device 25 and the prize ball control device 46.
[0032]
As shown in FIG. 9, an initialization switch 73 is mounted on the rear surface of the power supply board 52. The initialization switch 73 is connected to the input terminal of the main controller 20 and the prize ball controller as shown in FIG. It is electrically connected to 46 input terminals. The initialization switch 73 is operated from the front when the front door 2 is open. When the initialization switch 73 is operated, an initialization signal is output from the initialization switch 73 to the main controller 20 and the prize ball controller 46. Is done.
[0033]
Next, the operation of the above configuration will be described. The following operations are executed by the main control device 20, the display control device 25, and the prize ball control device 46 based on a control program recorded in advance in the ROM.
[0034]
<Special drawing start signal processing>
When the main power source Vin is turned on in the operation state of the initialization switch 73, a reset signal is given from the reset circuit 71 to the main control device 20 through the delay circuit 72, and the start processing unit 21 of the main control device 20 is shown in FIG. The process proceeds to step S1 of a). Then, the initialization signal from the initialization switch 73 is detected, and the process proceeds to step S2. Here, the backup data recorded in the big hit area of the RAM 65 is cleared, and the process proceeds to step S3.
[0035]
When the start processing unit 21 detects the special symbol start signal from the special symbol start sensor 16 in step S3, the start processing unit 21 proceeds to step S4 and detects the number of sets of counter data recorded in the big hit area of the RAM 65. In the big hit area, a maximum of 5 sets of counter data are recorded. When the start processing unit 21 detects that the counter data is less than 5 sets, the process proceeds to step S5.
[0036]
When the start processing unit 21 proceeds to step S5, the big hit counter value No and the symbol counter value Nz corresponding to the counter data are acquired. The jackpot counter No. and the symbol counter Nz are added to different upper limit values from “0” and then added back to “0”. The start processing unit 21 acquires the jackpot counter value No. and the symbol counter value Nz. Then, the big hit counter value No and the symbol counter value Nz are recorded in the big hit area of the RAM 65, and the process proceeds to step S6.
[0037]
If the start processing unit 21 determines in step S6 that the counter data is recorded in the big hit area, the process proceeds to step S7. Here, the top counter data (big hit counter value No and symbol counter value Nz) of the big hit area is output to the determination processing unit 22, and the process proceeds to step S8.
[0038]
When the start processing unit 21 detects a data clear command in step S8, the process proceeds to step S9. This data clear command is output from the determination processing unit 22, and when the start processing unit 21 proceeds to step S9, it clears the top counter data in the big hit area and returns to step S3. Based on the repetition of steps S3 to S9, the recording of the counter data, the output of the counter data, and the clearing of the counter data are executed.
[0039]
<About jackpot judgment processing>
When the main power source Vin is turned on in the operation state of the initialization switch 73, a reset signal is given from the reset circuit 71 to the main control device 20 through the delay circuit 72, and the determination processing unit 22 of the main control device 20 is shown in FIG. The process proceeds to step S11 of a). Then, an initialization signal from the initialization switch 73 is detected, and the process proceeds to step S12. Here, the backup data recorded in the determination area of the RAM 65 is cleared, and the process proceeds to step S13.
[0040]
When the determination processing unit 22 detects the counter data from the start processing unit 21 described above in step S13, the determination processing unit 22 records the counter data in the determination area of the RAM 65. And it transfers to step S14 and compares the big hit counter value No of counter data with the big hit judgment value. This big hit determination value is recorded in advance in the ROM of the main controller 20, and when it is determined that they are the same, the big hit is recorded in the determination area of the RAM 65, and it is determined that the two are different. Sometimes a miss is recorded.
[0041]
After recording the determination result, the determination processing unit 22 proceeds to step S15 or S16, sets a big hit symbol or a missing symbol based on the symbol counter value Nz of the counter data, and proceeds to step S17. The jackpot symbol is a combination of three symbols having the same left column, middle column, and right column. Further, the off symbol refers to three combination symbols in which the left column, the middle column, and the right column are different.
[0042]
When the determination processing unit 22 proceeds to step S <b> 17, it outputs a symbol variation command to the display control device 25. Then, the display control device 25 changes the symbol of each column of the special symbol display device 14 in the order of “0” → “1” → “2” …… “8” → “9” → “0” → “1”. Vary with.
[0043]
When the determination processing unit 22 outputs the symbol variation command, the process proceeds to step S18 and outputs the symbol setting result of step S15 or the symbol setting result of step S16 to the display control device 25. Then, the display control device 25 stops changing each column of the special symbol display device 14 with the set symbol, and notifies the player of a big hit or miss.
[0044]
When the determination processing unit 22 outputs the symbol setting result (symbol stop command), the process proceeds to step S19. If it is determined that no big hit is recorded in the determination area of the RAM 65, the process proceeds to step S24, and the counter data (the big hit area of the big hit area) that has been processed based on the output of the above-described data clear command to the start processing unit 21 is transferred. (First counter data) is cleared. If it is determined in step S19 that a big hit is recorded in the determination area, the process proceeds to step S20.
[0045]
In step S20, the determination processing unit 22 sets a setting value (for example, 15) in the round counter Nr (Nr ← 15). Then, the process proceeds to step S21, and the special winning opening 28 is opened for the set time based on the application of the drive power source Vout3 to the special winning opening solenoid 31 for the set time. Thereafter, the process proceeds to step S22, and "1" is subtracted from the round counter value Nr, and the process proceeds to step S23.
[0046]
When determining that the round counter value Nr is not “0” in step S23, the determination processing unit 22 returns to step S21 and repeats steps S21 to S23. Thereafter, when it is determined that the round counter value Nr has been subtracted to “0”, the process proceeds from step S23 to S24, and the processed counter data is cleared based on outputting a data clear command to the start processing unit 21.
[0047]
<About winning signal processing>
When the main power source Vin is turned on in the operation state of the initialization switch 73, a reset signal is given from the reset circuit 71 to the main control device 20 through the delay circuit 72, and the prize ball processing unit 23 of the main control device 20 is shown in FIG. The process proceeds to step S31 in (a). Then, the initialization signal from the initialization switch 73 is detected, and the process proceeds to step S32. Here, the backup data recorded in the prize ball area of the RAM 65 is cleared, and the process proceeds to step S33.
[0048]
When the winning ball processing unit 23 detects a winning signal from the big winning opening sensor 33 in step S33, the process moves to step S34. Here, based on executing “prize ball counter Na ← Na + C1 (for example, 15)”, the prize ball counter value Na is recorded in the prize ball area of the RAM 65, and the process proceeds to step S37. If a special symbol start signal from the special symbol start sensor 16 is detected in step S35, the process proceeds to step S36. Here, based on the execution of “prize ball counter Na ← Na + C 2 (for example, 5)”, the prize ball counter value Na is recorded in the prize ball area of the RAM 65, and the process proceeds to step S37.
[0049]
When the award ball processing unit 23 detects “award ball counter value Na ≧ 1” in step S37, the award ball processing unit 23 proceeds to step S38 and determines the state of the flag F. The flag F is set to “1” at the time of activation or set to “1” in step S48 described later. When the prize ball processing unit 23 detects “F = 1” in step S38, step S39 is performed. The prize ball counter value Na is set to the payout counter Nb (Nb ← Na). Then, the payout counter value Nb is recorded in the prize ball area of the RAM 65, and the process proceeds to step S40.
[0050]
In step S40, the winning ball processing unit 23 sets the payout counter value Nb in the payout confirmation counter Nc (Nc ← Nb). Then, the payout confirmation counter value Nc is recorded in the prize ball area of the RAM 65, and the process proceeds to step S41. Here, a payout command for the pachinko ball P and a payout number (= payout counter value Nb) are output to the payout processing unit 47 of the prize ball control device 46, and "0" is input to the flag F (F ← 0) step. The process proceeds to S42.
[0051]
When the award ball processing unit 23 detects a payout signal from the payout sensor 51 in step S42, the process moves to step S43. Here, “1” is subtracted from the payout counter value Nb in the prize ball area (Nb ← Nb−1), and the process proceeds to step S44. As described above, this payout signal is output every time one pachinko ball P is paid out from the payout device 37. Based on the execution of “Nb ← Nb−1”, the unpaid pachinko ball P is not paid. The number is measured.
[0052]
When the winning ball processing unit 23 detects a payout end signal in step S44, the process moves to step S45. As will be described later, this payout end signal is output based on confirming that the payout processing unit 47 has paid out “Nb” pachinko balls P. The prize ball processing unit 23 receives the payout ball processing unit 23 in step S45. When it is detected that the payout counter value Nb in the prize ball area is decremented to “0”, it is determined that the payout information of the payball area is consistent with the payout information of the payout processing unit 47, and steps S45 to S46 are performed. Migrate to
[0053]
If the winning ball processing unit 23 determines that the payout counter value Nb in the winning ball area is not subtracted to “0” in step S45, the payout information of the payball processing unit 47 is not consistent with the payout information of the payout processing unit 47. And the process proceeds to step S47. The payout counter value Nb of the prize ball processing unit 23 and the payout end signal of the payout processing part 47 are consistent unless there is an illegal action such as illegal exchange of the main circuit board 19 or the prize ball circuit board 45. When the process proceeds to step S47, the unit 23 determines that there has been an illegal act. Then, an abnormal signal is output to the pachinko hall host computer (not shown), and the process proceeds to step S46.
[0054]
In step S46, the prize ball processing unit 23 calculates the number of unpaid pachinko balls P based on executing “prize ball counter Na ← Na−payout confirmation counter Nc”. In step S48, "1" is input to the flag F (F ← 1), and the process returns to step 33. Accordingly, each time the pachinko ball P enters the special symbol start opening 15 and the special winning opening 28, the set values C1 and C2 are added to the winning ball counter value Na in the winning ball area, and the payout operation of the pachinko ball P is performed. When stopped (when F = 1), a payout command and a payout number Nb are output. At the same time, every time a payout end signal is output from the payout processing unit 47, the prize ball counter Na in the prize ball area is subtracted to calculate the latest payout number Na.
[0055]
<About the prize ball payout process>
When the main power source Vin is turned on in the operation state of the initialization switch 73, a reset signal is given from the reset circuit 71 to the prize ball control device 46. Then, the payout processing unit 47 of the prize ball control device 46 is activated prior to the start processing unit 21, the determination processing unit 22, and the prize ball processing unit 23 of the main control device 20, and the process proceeds to step S51 in FIG. To do. Here, the initialization signal from the initialization switch 73 is detected, and the process proceeds to step S52. Then, the backup data recorded in the payout area of the RAM 69 is cleared, and the process proceeds to step S53.
[0056]
When the payout processing unit 47 detects the above-mentioned payout command and the number of payouts (payout counter value Nb) output from the prize ball processing unit 23 in step S53, the process proceeds to step S54. Here, the payout execution counter Nb ′ is set to the payout execution counter Nb ′ by inputting the payout counter value Nb (Nb ′ ← Nb), and is recorded in the payout area of the RAM 69.
[0057]
When the payout processing unit 47 sets the payout execution counter Nb ′, the process proceeds to step S55, and drives the rotating shaft of the ball payout motor 43 by a unit amount based on the application of the drive power supply Vout3 to the ball payout motor 43. When a payout signal from the payout sensor 51 is detected in step S56, it is confirmed that one pachinko ball P has been paid out, and the process proceeds to step S57. Here, the number of unpaid pachinko balls P is calculated based on subtracting “1” from the payout execution counter value Nb ′ in the payout area (Nb ′ ← Nb′−1), and the process proceeds to step S58.
[0058]
When the payout processing unit 47 detects “payout execution counter Nb ′ = 0” in step S58, it determines that the payout operation of the pachinko ball P has been completed. And it transfers to step S59, outputs the above-mentioned payout completion signal to the prize ball processing part 23 of the main controller 20, and returns to step S53. Accordingly, the payout processing unit 47 detects the payout command and the payout number Nb from the prize ball processing unit 23 when the payout operation is stopped, and detects the next payout command and the payout number Nb after the payout operation ends.
[0059]
<Special signal start signal processing at power failure>
When a power failure occurs during the game, a power failure signal is output from the power failure detection circuit 70 to the main controller 20. Then, the start process part 21 of the main control apparatus 20 transfers to step S61 of (b) of FIG. Here, when it is detected that there is no special symbol start signal from the special symbol start sensor 16, the process proceeds to step S64, and the elapse of the set time T is determined. This set time T corresponds to the time during which the reserve power supply Vout4 ′ is applied from the reserve power supply circuit 57 to the special symbol start sensor 16 and the payout sensor 51, and the start processing unit 21 passes the set time T in step S64. If it is determined that it is not, the process returns to step S61, and steps S61 and S64 are repeated.
[0060]
If the start processing unit 21 detects the special figure start signal while repeating steps S61 and S64, the process proceeds from step S61 to S62. Here, when it is detected that the number of recorded counter data in the big hit area of the RAM 65 is 5, the processing is terminated. If it is detected that the number of recorded counter data is 4 or less, the process proceeds to step S63, where the big hit counter value and the symbol counter value are acquired at the detection timing of the special figure start signal and recorded in the big hit area. Therefore, the counter data immediately before the power failure is stored in the big hit area of the RAM 65 after the standby power supply Vout5 ′ of the main controller 20 is shut off.
[0061]
<About jackpot judgment processing at power failure>
When a power failure occurs during the game, a power failure signal is output from the power failure detection circuit 70 to the main controller 20. At this time, if the counter data and the round counter value Nr are recorded in the determination area of the RAM 65, the counter data and the round counter value Nr are stored after the standby power supply Vout5 ′ is shut off.
[0062]
<About winning signal processing at power failure>
When a power failure occurs during the game, a power failure signal is output from the power failure detection circuit 70 to the main controller 20. Then, the prize ball processing unit 23 of the main control device 20 proceeds to step S71 in FIG. If it is detected that there is no payout signal from the payout sensor 51, the process proceeds to step S72. Then, when it is detected that there is no special symbol start signal from the special symbol start sensor 16, the process proceeds to step S77.
[0063]
When the winning ball processing unit 23 determines in step S77 that the set time T has not elapsed, the award ball processing unit 23 returns to step S71 and repeats S71, S72, and S77. This set time T (application time of the spare power supply Vout4 ′ for the special symbol start sensor 16 and the payout sensor 51) is set slightly longer than the time for the pachinko ball P falling from the sprocket 40 of the payout device 37 to reach the payout sensor 51. When the sprocket 40 releases the pachinko ball P immediately before the power failure, the pachinko ball P reaches the payout sensor 51 within the set time T, and the payout sensor 51 outputs a payout signal.
[0064]
When the winning ball processing unit 23 detects the payout signal in step S71, the process moves to step S73, and the payout counter value recorded in the winning ball area of the RAM 65 based on executing “payout counter Nb ← Nb−1”. Nb is rewritten, and the pachinko ball P released from the sprocket 40 immediately before the power failure is measured. When “Nb = 0” is detected in step S74, the process proceeds to step S75, and the prize ball counter value Na recorded in the prize ball area of the RAM 65 is determined based on executing “Na ← Na−Nc”. rewrite.
[0065]
When the special ball starter 23 detects the special symbol start signal from the special symbol start sensor 16 before the set time T elapses, the process proceeds from step S72 to S76 and executes “prize ball counter value Na ← Na + C2”. Based on this, the prize ball counter value Na is rewritten. Therefore, after the standby power supply Vout5 ′ of the main controller 20 is shut off, the prize ball counter value Na, the payout counter value Nb, and the payout confirmation counter value Nc immediately before the power failure are stored in the prize ball area of the RAM 65.
[0066]
<About payout processing at power failure>
When a power failure occurs during the game, a power failure signal is output from the power failure detection circuit 70 to the prize ball controller 46. Then, the payout processing unit 47 of the prize ball control device 46 proceeds to step S81 in FIG.
[0067]
When the payout processing unit 47 detects that there is no payout signal from the payout sensor 51 in step S81, the payout processing unit 47 proceeds to step S83. If it is determined that the set time T has not elapsed, steps S81 and S83 are repeated. As described above, the set time T is set to be slightly longer than the time required for the pachinko sphere P released from the sprocket 40 of the payout device 37 to reach the payout sensor 51. When the ball P is released, the pachinko ball P reaches the payout sensor 51 within the set time T, and a payout signal is output from the payout sensor 51.
[0068]
When the payout processing unit 47 detects a payout signal in step S81, the payout processing unit 47 proceeds to step S82 and executes the payout execution recorded in the payout area of the RAM 69 based on executing “payout execution counter Nb ′ ← Nb′−1”. The counter value Nb ′ is rewritten, and the pachinko sphere P released from the payout device 37 immediately before the power failure is measured. Therefore, after the standby power supply Vout5 ′ of the main control device 20 and the standby power supply Vout5 ′ of the prize ball control device 46 are cut off, the RAM 65 of the main control device 20 and the RAM 69 of the prize ball control device 46 are consistent. The payout information (the payout counter value Nb and the payout execution counter value Nb ′) is stored.
[0069]
<Special drawing start signal processing at power failure recovery>
When a reset signal is given from the reset circuit 71 to the main control device 20 through the delay circuit 72 when the power failure is restored, the start processing unit 21 of the main control device 20 proceeds to step S1 of FIG. Here, the non-operation of the initialization switch 73 is detected, and the process proceeds to step S3 without clearing the big hit area of the RAM 65. Accordingly, when the counter data immediately before the power failure is recorded in the big hit area, the counter data is output to the determination processing unit 22 in step S7, and when the counter data is not recorded in the big hit area, at the detection timing of the special figure start signal. Counter data is acquired and output to the determination processing unit 22.
[0070]
<About jackpot judgment processing at the time of power failure recovery>
When a reset signal is given from the reset circuit 71 to the main control device 20 through the delay circuit 72 when the power failure is restored, the determination processing unit 22 of the main control device 20 proceeds to step S11 in FIG. Here, the non-operation of the initialization switch 73 is detected, and the process proceeds to the power failure recovery process in step S25. When the counter data is recorded in the determination area of the RAM 65, the counter data is cleared in step S91 in FIG. 3B, and the process proceeds to step S92.
[0071]
When determining that the round counter value Nr is not recorded in the determination area of the RAM 65 in step S92, the determination processing unit 22 finishes the power failure recovery process and proceeds to step S13 in FIG. Therefore, the big hit determination operation and the symbol setting operation are performed based on the counter data immediately before the power failure output from the start processing unit 21 or the new counter data after the recovery from the power failure.
[0072]
When the determination processing unit 22 determines that the round counter value Nr is recorded in the determination area of the RAM 65 in step S92 of FIG. 3B, the process proceeds to step S93. Then, the special winning opening 28 is opened based on the driving of the special winning opening solenoid 31, and the process proceeds to step S94.
[0073]
When the determination processing unit 22 subtracts “1” from the round counter value Nr in step S94, the power failure recovery processing is completed based on detecting “round counter value Nr = 0” in step S95, and FIG. The process proceeds to step S13. Therefore, the big hit determination operation and the symbol setting operation are performed based on the counter data immediately before the power failure output from the start processing unit 21 or the new counter data after the power failure recovery.
[0074]
<About winning signal processing at power failure recovery>
When a reset signal is given from the reset circuit 71 to the main control device 20 through the delay circuit 72 when the power failure is restored, the prize ball processing unit 23 of the main control device 20 puts “1” in the flag F, and the (a ) To step S31. Here, the non-operation of the initialization switch 73 is detected, and the process proceeds to the power failure recovery process in step S49. Then, in step S101 of FIG. 4C, the payout counter value Nb is read from the prize ball area of the RAM 65, and when “payout counter value Nb = 0” is detected, the power failure recovery process is finished.
[0075]
When the winning ball processing unit 23 finishes the power failure recovery process, the process moves to step S33 in FIG. Accordingly, when “prize ball counter value Na ≧ 1” is detected in step S37, the payout counter value Nb and the payout confirmation counter value Nc are set based on the prize ball counter value Na immediately before the power failure, and the prize ball control device 46 A payout command and a payout counter value Nb are output to the payout processing unit 47. Further, when “prize ball counter value Na = 0” is detected in step S37, a payout command and a payout counter value are sent to the payout processing unit 47 based on the detection of a winning signal and a special figure start signal in steps S33 and S35. Nb is output.
[0076]
When the winning ball processing unit 23 detects “payout counter value Nb ≧ 1” in step S101 of FIG. 4C, it outputs a payout command to the payout processing unit 47 in step S102, and inputs “0” to the flag F. (F ← 0). Then, after the power failure recovery process is completed, the process proceeds to step S33 in FIG.
[0077]
<About payout processing when power is restored>
When a reset signal is given from the reset circuit 71 to the prize ball control device 46 at the time of restoration of a power failure, the payout processing unit 47 of the prize ball control device 46 proceeds to step S51 in FIG. Here, the non-operation of the initialization switch 73 is detected, and the process proceeds to step S53 without clearing the payout area of the RAM 69.
[0078]
When the payout processing unit 47 detects a payout command from the prize ball processing unit 23 in step S53, the payout execution counter value Nb ′ of the payout area is set in step S54, and the ball payout motor 43 is driven in step S55. When a payout signal from the payout sensor 51 is detected in step S56, "1" is subtracted from the payout execution counter value Nb 'in step S57, and when "payout execution counter value Nb' = 0" is detected in step S58. In step S59, a payout end signal is output.
[0079]
At this time, the prize ball processing unit 23 detects a payout signal from the payout sensor 51 in step S42 of FIG. 4A, and subtracts the payout counter value Nb in step S43. When the payout end signal from the payout processing unit 47 is detected in step S44, the process proceeds to step S45, where the payout information and the payout of the payout processing unit 47 are based on comparing the payout counter value Nb with “0”. Check consistency with information.
[0080]
According to the above embodiment, the application time T of the standby power supply Vout4 ′ to the payout sensor 51 is a length that can output the payout signal by detecting the pachinko ball P emitted from the sprocket 40 of the payout device 37 immediately before the main power supply Vin is shut off. The application time T of the reserve power supply Vout5 ′ to the prize ball control device 46 is set to a length that allows the payout execution counter value Nb ′ to be subtracted based on the payout signal output from the payout sensor 51 after the main power supply Vin is shut off. Set. Therefore, when the pachinko ball P is released from the sprocket 40 immediately before the power failure, a payout signal is output from the payout sensor 51 to the prize ball control device 46, and the prize ball control device 46 subtracts the payout execution counter value Nb ′. The pachinko sphere P released from the sprocket 40 immediately before the power failure is measured, and an accurate payout execution counter value Nb is obtained.
[0081]
Further, the application time T of the standby power supply Vout5 ′ to the main controller 20 is set to a length that allows the payout counter value Nb to be subtracted based on the payout signal output from the payout sensor 51 after the main power supply Vin is shut off. Therefore, when the pachinko ball P is released from the payout device 37 immediately before the power failure, it is reflected in both the payout counter value Nb and the payout execution counter value Nb ′. It is easy to check that the ROM of the main control device 20 and the ROM of the prize ball control device 46 have been illegally replaced during a power outage, simply by checking whether or not there is a payout end signal when the value Nb becomes “0”. Can be found.
[0082]
Further, the start processing unit 21 of the main control device 20 monitors the special figure start signal from the special symbol start sensor 16 when the main power source Vin is shut off, and acquires the counter data based on detecting the special figure start signal. Configured. For this reason, when the power failure is restored, the big hit and miss judgment operation, the big hit symbol and the miss symbol display operation are performed based on the counter data immediately before the power failure, so the pachinko ball P enters the special symbol start port 15 immediately before the power failure. It is possible to prevent the determination operation of the big hit from being performed despite the ball.
[0083]
The prize ball processing unit 23 of the main control device 20 monitors the special figure start signal from the special symbol start sensor 16 when the main power source Vin is shut off, and detects the special figure start signal, and the prize ball counter value Na is detected. Was configured to add. For this reason, when the power failure is restored, the pachinko ball P is paid out based on the prize ball counter value Na immediately before the power failure, so that the pachinko ball P enters the special symbol starting port 15 immediately before the power failure. It is prevented that the payout operation of P is not performed.
[0084]
Further, when the main power supply Vin is turned on while the main control device 20 and the prize ball control device 46 are in the operation state of the initialization switch 73, the payout counter value Nb (pachinko ball P payout information) and the payout execution counter value Nb ′ ( Since the backup data of the pachinko ball P (payout information) is cleared, the backup data of the payout counter value Nb and the payout execution counter value Nb ′ is cleared when the initialization switch 73 is operated after the main power source Vin is turned on. It will not be done.
[0085]
In the above embodiment, the payout sensor 51 is disposed in the ball passage 39 of the payout device 37. However, the present invention is not limited to this. For example, in the ball passage 49 connecting the payout device 37 and the upper plate 4. The point may be provided on the downstream side of the sprocket 40.
[0086]
In the above embodiment, the application time of the standby power source Vout4 ′ to the special symbol start sensor 16 is set to be the same as that of the payout sensor 51. However, the present invention is not limited to this. It may be set to.
[0087]
<About modification>
The application time of the standby power source Vout4 ′ to the special symbol start sensor 16 is released to the upper part of the game board 8 immediately before the main power source Vin is shut off, and the special symbol start sensor 15 enters the special symbol start port 15 after the main power source Vin is shut off. The length is set so as to detect the pachinko ball P that has entered. Further, the start processing unit 21 of the main control device 20 obtains the counter data (corresponding to the determination information) based on the special symbol start signal from the special symbol start sensor 16 for the application time of the standby power supply Vout5 ′ to the main control device 20. The prize ball processing unit 23 sets the prize ball counter value Na (corresponding to the prize ball information) to a length that can be added based on the special figure start signal.
[0088]
In the case of the above configuration, when the pachinko ball P is released into the game board 8 immediately before the power failure, the special symbol start sensor 16 is reached within the effective time of the standby power supply Vout4 ′. Then, a special symbol start signal is output from the special symbol start sensor 16 to the start processing unit 21 and the prize ball processing unit 23, and the start processing unit 21 acquires counter data within the effective time of the standby power source Vout5 ', and the prize ball processing The unit 23 adds the prize ball counter value Na within the effective time of the standby power supply Vout5 ′. Therefore, when the power failure is restored, the big hit determination operation is performed based on the counter data immediately before the power failure, and the payout operation of the pachinko ball P is performed based on the prize ball counter value Na immediately before the power failure. In spite of the fact that the pachinko ball P released to the upper part of the board wins the special symbol start port 15, it is possible to prevent the jackpot determination operation and the pachinko ball P payout operation from being performed.
[0089]
In the above-described embodiment, the standby power source Vout4 ′ is applied to the special symbol start sensor 16 and the payout sensor 51 when the main power source Vin is shut off. However, the present invention is not limited to this. You may do it. In this case, the application time of the spare power source Vout4 ′ is a pachinko that is released into the upper part of the game board 8 immediately before the main power source Vin is shut off, and enters the big winning port 28 after the main power source Vin is shut off. The ball P is set to such a length that the ball P can be detected, and the award ball processing unit 23 sets the application time of the standby power source Vout5 ′ to the main control device 20 based on the winning signal from the big winning opening sensor 33. It is good to set it to a length that can be added.
[0090]
In the above embodiment, the special symbol start sensor 16 is disposed in the special symbol start port 15, but the present invention is not limited to this. For example, a pachinko ball P that has entered the special symbol start port 15 is provided. You may arrange | position in the back wall discharged | emitted out of the machine. In the case of this configuration, a special symbol start signal is output from the special symbol start sensor 16 based on the pachinko ball P passing through the special symbol start port 15.
[0091]
Further, in the above embodiment, the present invention is applied to one kind of pachinko machine in which the big hit operation is performed in conjunction with the occurrence of the big hit. However, the present invention is not limited to this. The invention may be applied. In this pachinko machine, the special winning opening is opened in conjunction with the occurrence of the big hit, and the big hitting operation is performed based on the pachinko ball P entering the special winning opening when the special winning opening is opened. In this case, instead of the pocket-shaped special symbol starting port 15, a U-shaped special symbol starting gate (corresponding to a starting gate and a winning gate) whose upper and lower surfaces are opened is used, and the pachinko ball P is placed inside the special symbol starting gate. The special symbol starting signal 16 may be output from the special symbol starting sensor 16 based on passing the symbol.
[0092]
【The invention's effect】
According to the pachinko machine of the present invention, since the main control device and the prize ball control device clear the backup data of the payout information when the main power is turned on in the operation state of the initialization switch, the initialization is performed after the main power is turned on. The backup data of the payout information is not cleared when the switch is operated.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of the present invention (a block diagram showing a power supply path and the like);
FIG. 2 is a flowchart showing processing contents of a start processing unit (a is a flowchart showing special figure start signal processing, and b is a flowchart showing power failure processing).
FIG. 3 is a flowchart showing processing contents of a determination processing unit (a is a flowchart showing jackpot determination processing, and b is a flowchart showing power failure recovery processing).
FIG. 4 is a flowchart showing processing contents of a prize ball processing unit (a is a flowchart showing winning signal processing, b is a flowchart showing power failure processing, and c is a flowchart showing power failure recovery processing).
FIG. 5 is a flowchart showing processing contents of a payout processing unit (a is a flowchart showing payout processing, and b is a flowchart showing power failure processing).
FIG. 6 is a block diagram showing an electrical configuration.
FIG. 7 is a diagram showing an internal configuration of the dispensing device
FIG. 8 is a front view showing the overall configuration.
FIG. 9 is a rear view showing the overall configuration.
[Explanation of symbols]
P is a pachinko ball, 4 is an upper plate, 8 is a game board, 15 is a special symbol starting port (starting port, winning port), 16 is a special symbol starting sensor (starting sensor, winning sensor), 20 is a main controller (monitoring) Means, determination means, prize ball means), 28 is a big prize opening (winning prize port), 33 is a big prize opening sensor (winning sensor), 37 is a payout device, 40 is a sprocket (payout member), and 46 is a prize ball control device. (Payout means) 51 denotes a payout sensor.

Claims (1)

A prize opening on the game board that allows pachinko balls to enter,
A winning sensor for outputting a winning signal by detecting that the pachinko ball has entered the special said winning opening,
A main control device that sets payout information for paying out the pachinko ball from the payout device into the upper plate based on detecting a winning signal from the winning sensor, and outputs a setting result of the payout information ;
A prize ball control device that drives the payout device based on detecting payout information output from the main control device, and pays out a pachinko ball from the payout device into the upper plate;
A main power supply is provided from the power supply device of the pachinko hall, and a power supply board that generates drive power for each of the main control device and the prize ball control device based on the main power supply,
A reset circuit that outputs a reset signal to each of the main control device and the prize ball control device based on the voltage level of the drive power generated by the power supply board rising to a reset level;
A delay circuit that delays and applies a reset signal output from the reset circuit to the main control device so that the main control device is activated after the prize ball control device is activated;
An initialization switch that outputs an initialization signal to each of the main controller and the prize ball controller;
The main control device has a RAM capable of backing up a setting result of payout information when the main power supply is shut off, and when the main power supply is turned on in the operation state of the initialization switch To clear the payout information backed up in
The prize ball control device has a RAM capable of backing up a payout information detection result when the main power supply is shut off, and the main power supply is turned on when the initialization switch is operated. A pachinko machine that is activated prior to the control device and clears the payout information backed up in its own RAM .

Images